A theoretical framework is presented for the statics and kinematics of discrete Cosserat-type granular materials. In analogy to the force and moment equilibrium equations for particles, compatibility equations for closed loops are formulated in the two-dimensional case for relative displacements and relative rotations at contacts. By taking moments of the equilibrium equations, micromechanical expressions are obtained for the static quantities average Cauchy stress tensor and average couple stress tensor. In analogy, by taking moments of the compatibility equations, micromechanical expressions are obtained for the (infinitesimal) kinematic quantities average rotation gradient tensor and average Cosserat strain tensor in the two-dimensional ...
International audienceThe present study theoretically investigates the free vibration problem of a d...
The characterization of the developed constitutive law for granular material based on micromechanics...
The purpose of this paper is to present a physically based plasticity model for non-coaxial granular...
This textbook explores the theory of Cosserat continuum mechanics, and covers fundamental tools, gen...
In recent years a discussion could be followed where the pros and cons of the applicability of the C...
AbstractIn recent years a discussion could be followed where the pros and cons of the applicability ...
This paper performs further study on the micro-macro homogenization approach of granular materials (...
A constitutive relationship is developed for granular materials from a micro-mechanical point of app...
A study is made of kinematic and static assumptions for homogenization in micromechanics of granular...
International audienceThis paper deals with the free vibration of a beam which is discretized by fin...
Despite a century of study, the macroscopic behaviour of quasistatic granular materials remains poor...
The micro-mechanical behavior of granular materials can be readily modeled with the discrete element...
Granular materials are special materials, from the continuum-mechanical viewpoint, in the sense that...
A micromechanics approach of elasto-plastic stress-strain model for granular material based on stati...
International audienceThe present study theoretically investigates the free vibration problem of a d...
The characterization of the developed constitutive law for granular material based on micromechanics...
The purpose of this paper is to present a physically based plasticity model for non-coaxial granular...
This textbook explores the theory of Cosserat continuum mechanics, and covers fundamental tools, gen...
In recent years a discussion could be followed where the pros and cons of the applicability of the C...
AbstractIn recent years a discussion could be followed where the pros and cons of the applicability ...
This paper performs further study on the micro-macro homogenization approach of granular materials (...
A constitutive relationship is developed for granular materials from a micro-mechanical point of app...
A study is made of kinematic and static assumptions for homogenization in micromechanics of granular...
International audienceThis paper deals with the free vibration of a beam which is discretized by fin...
Despite a century of study, the macroscopic behaviour of quasistatic granular materials remains poor...
The micro-mechanical behavior of granular materials can be readily modeled with the discrete element...
Granular materials are special materials, from the continuum-mechanical viewpoint, in the sense that...
A micromechanics approach of elasto-plastic stress-strain model for granular material based on stati...
International audienceThe present study theoretically investigates the free vibration problem of a d...
The characterization of the developed constitutive law for granular material based on micromechanics...
The purpose of this paper is to present a physically based plasticity model for non-coaxial granular...